Compaction of Concrete Good Practice

Today I am suppose to write a post on earthwork but because I had a bad experience on site which I am presently supervising, I decided to write a post on compaction of concrete good practice. We did our first concrete pour yesterday on a raft foundation with a bunch of inexperience concreters.

The general view of main contractors or builders is that the compaction of concrete is a simple procedure that any unskilled construction worker can do.
Placing of concrete if not done properly will affect the integrity of the structure such as

a) Honeycomb

Honeycomb refers to voids left in concrete due to failure of the mortar to effectively fill the spaces among coarse-aggregate particles. It is a defect in the hardened concrete consisting of many air pockets or voids due to which concrete deteriorates by entrapment of moisture that causes corrosion of reinforcement bars resulting in failure of structural members over a period of time if not rectified at the earliest.

b) Segregation

Segregation can be defined as the separation of the constituent materials of concrete. A good concrete is one in which all the ingredients are properly distributed to make a homogeneous mixture. There are considerable differences in the sizes and specific gravities of the constituent ingredients of concrete. Therefore, it is natural that the materials show a tendency to fall apart.

Vibration of concrete is one of the important methods of compaction. It should be remembered that only comparatively dry mix should be vibrated. It too wet a mix is excessively vibrated; it is likely that the concrete gets segregated. It should also be remembered that vibration is continued just for required time for optimum results. If the vibration is continued for a long time, particularly, in too wet a mix, it is likely to result in segregation of concrete due to settlement of coarse aggregate in matrix.

Concrete Compaction is the process adopted for expelling the entrapped air from the concrete. In the process of mixing, transporting and placing of concrete air is likely to get entrapped in the concrete. The lower the workability, higher is the amount of air entrapped. In other words, stiff concrete mix has high percentage of entrapped air and, therefore, would need higher compacting efforts than high workable mixes.

The next question is how to do it properly?

Immediately after the concrete is discharged either from a concrete pump hose or a concrete hopper and place in the area to be concreted, the concrete must be compacted with a vibrating poker. Vibration should be done in a poking manner [please see attached video for this]. What is important is when the poker is withdrawn from the concrete; the process of withdrawing must be done slowly so as to give enough time for the trap air bubble to surface. Quick withdrawal of the poker does not allow enough time for the concrete mixture to fill the space occupied by the withdrawing poker, thereby causing a void or honeycomb. One rule of the thumb guide to tell whether the concrete is well compacted is when the concrete surface stops popping out air bubbles.

In situation where compaction of concrete is done in high walls, lift walls, deep trenches or very thick foundations, the placing of concrete should be done in layers of 400 to 700 mm at a time. When concreting is being done for the next level, the vibrating poker should not be driven to the full depth of the pervious layer but driven only 100 to 150 mm down from the surface of the previous layer so as to have a homogeneous joint.

Below please video clips on compaction of concrete.

You know what? I already feel better writing this post after my bad experience from the supervision a bunch of unskilled so called concreters yesterday.

Feeling good!

Benson

video 04 compaction of concrete

video 03 compaction of concrete

video 02 compaction of concrete

video 01 compaction of concrete



Pictures of Profile or Batter Board

Just remembered, that I forgot to post two pictures of what a profile/batter board. You can see them below

Setting out of Gridlines on Site

Setting out of Gridlines On Site

Today I wish to further discuss on setting out gridlines in a construction site.

Before and construction can be done, a set of construction drawings would be issued by the Consulting Architect firm. In these drawings the site layout plan and floor plans will be found. In these plans, there will be Grid Lines indicated with dimensions given. The grid lines allow references to be made in terms of position/location of various elements in the project. For example a partition wall position is determine in the floor plan by having dimensions indicated in the x and y axis, let say for an example - 2 meters from Gridline A, and 1 meter from Gridline 2

The Main Contractor will then engaged a license surveyor to set out the grid lines on site. The License surveyor will purchase a survey plan from the government land survey department indicating the true coordinate control points near the construction site and the license surveyor field team will for transfer and establish new control points if necessary and from these control points will go about setting out the grid lines in the construction site.

The license surveyor field team will normally set up the gridline reference points a few meters away from the building outline. When marking the gridline reference points they will as far as possible marked it on a permanent structure such as if there is a concrete pavement or a boundary wall or fence. If that is not possible they will drive a wooden peg/stake into the ground and marked the grid line reference point of the top of the wooden peg with a steel nail.

After the grid line setting out is done on site, they will bring their field data back to their office and have a drawing made out, showing the gridlines they have marked on site and the offset distances and other relevant information. When the gridline setting out drawing is ready, the license surveyor will endorse drawing and issue it to the main contractor.

Once the main contractor receives the drawing, he will give this drawing to his Site Engineer or the in-house surveyor if he has one. The Site Engineer or in-house surveyor has to then check and verify that the license surveyor markings on the drawing are similar to the markings on site. Prior to this, the Site Engineer or In-house surveyor has to protect all the marked points immediately after the license surveyor field team completed the marking of the gridline points. This is to avoid the gridline control points from being disturbed by other site activities.

If the site has a theodilite then the setting up of profile or batter board is not necessary. 

However, if there is no theodilite, then preparation of profile or batter board [see below figure 1 and 2 picture] for the transfer of the license surveyor grid lines to the top of the profile board is necessary. This activity is normally performed by the carpenters for the project. Profile or batter board is done so that the gridline point’s mark by the license surveyor field team is transferred up to a nail point on the profile board. The height of the profile board is normally 500mm to 1000mm above the formation level of the building. Normally the license surveyor points are either driven wooden pegs on the ground, or points driven by nails on a pavement or centre punch points on a brick wall. The purpose of a profile board is when there is no theodilite to give a line of sight for the gridline; the carpenters can tie a carpenter nylon string from one gridline point on the profile board to the corresponding gridline point at the other end of the site.

However, using profile board for setting out works is not encouraged for the following reasons:

1) Error in transferring from surveyors point to profile board.

2) When the profile board is disturbed

3) Inaccuracy in transferring from the carpenter string to the work element   

4) Different elevation on one end of profile board to the opposite end.

I realize my explanation may not be clear on gridline setting up, so I went to YouTube to search for some videos on site setting up and have attached it in this Post. However, the videos are also not very clear but it does give one a rough idea.

This end’s today Post. Have a nice day!

Youtube video Project using profile or batter board

Dear Readers,

Yesterday I wrote an article about site land survey, while writing the articles the thought came to mind whether my readers knows what I am talking about.

So today I decided to post two videos on my blog. This is the first time, I am learning to post a video into my blog and did manage it.

There first video is on how to set up a survey tripod with a level instrument. There second video is on how to read a leveling staff. I hope you will enjoy viewing the videos.

How to read a levelling 'E' type staff

How to set up a survey tripod

Today I would like to discuss about site land survey works.

The normal practice is when the Main Contractor takes possession of a work site, they will engaged a license land surveyor to setup the position of the building or structure to be constructed and confirm the setback or clearances of the building to the boundary lines. After doing that the field surveyor team will established their control points using true coordinate’s survey. Having established their control points the can setup up the building grid lines immediately or later. The license surveyor field team will also set up temporary bench marks. The reduce level has to be transferred from the nearest ordinance point given by the government land survey department. After the land survey field work is done, the License Surveyor will prepare a drawing showing the coordinates of the land boundary points, position and coordinate value of their control points and temporary bench mark values and site location. 

The license surveyor has to then endorse and sign on the survey drawing and submit it to the Main Contactor for onward transmittal to the Architect’s, Owner, Site Office etc.

The Main Contractor’s site engineer or in-house surveyor has to verify that the temporary bench marks values are in order. Normally two or three temporary bench marks are given all the  Site engineer or in-house surveyor has to do is take a level instrument and check whether the bench mark values tally with each other before transferring into the site. Often the Main Contractor’s site staff makes the mistake of not checking and verifying the TBM values given by License surveyors.

There are many cases of site being built on a wrong platform level because of this carelessness. There are a few reasons why TBM given by a License Surveyor is wrong are, firstly the License Surveyor does not do the work himself, his field staff does the work but more often he subcontracts the work to third parties.

Properly the field staff has to transfer from a given or approve government ordinance point which can be a few kilometers away, but commonly practice by field surveyors is that they may have historical records of TBM previously done by themselves nearer to the site.

Another situation is third parties field surveyors either share or sell their TBM data and control point coordinates. Many of times these TBMs and control points may get disturbed for many reasons such as earth settlement.  

Another error that may occur is calculation errors. What I mean by this is that sometimes the nearest TBM may not be that near or the area topography may be undulating etc. and sometimes you may not get clear line of sight for your reading. This means you have to transfer your level instrument to a new position a few times. The more transferring of the level instrument station, the more room for errors there will be in staff readings, log entries and calculation.

As far as the Main Contractor is concern it is the responsibility of the License Surveyor’s responsibility and liability. All the Main Contractor has to ensure is that he has an endorse hardcopy of the License’s surveyor drawing. And that his site engineer or in-house site surveyor check whether the TBM values tally.

Introduction

Dear Readers,

Let me introduce myself, I am Benson Chin and am working as a Resident Technical Officer in the Construction Industry. Another term use for our profession is a Clerk-of-Work.

Our job in a construction site is to ensure the main contractor does the work in accordance to approve drawings and building specifications. It is a statutory requirement by the Building Control Authority that a Resident Technical Officer is to be employed by either the Consulting Architect or Professional Structure Engineer or Professional Mechanical & Electrical Engineer to supervise critical site activities, ensure statutory requirement are complied with and to report to the Consultant’s and Authorities of any non compliance in the construction site.

Having been working in the Construction industry for 35 over years, I decide to create a blog and write about my construction experience, the challenges that we face the problems that we encounter and also to invite comments and suggestions from my readers on solutions to certain issues we face during our work.